Development of the muscular and nervous systems during the larval ontogeny of the stalked barnacle, Octolasmis angulata Aurivillius 1894 (Cirripedia: Thoracicalcerea: Poecilasmatidae)

The advancements in microscopic techniques have stimulated great interest in the muscular and neural architectures of invertebrates, specifically using muscle and neural structures to infer phylogenetic relationships. Here, we provide the data on the development of the muscular and nervous systems d...

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Bibliographic Details
Published in:Arthropod structure & development 2023-09, Vol.76, p.101298-101298, Article 101298
Main Authors: Yap, Fook-Choy, Wong, Wey-Lim, Chong, Ving-Ching, Bong, Chui-Wei, Lim, Lee-Hong Susan
Format: Article
Language:English
Subjects:
Cyprid
Development
Muscular
Naupliar
Nervous
Octolasmis
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Summary:The advancements in microscopic techniques have stimulated great interest in the muscular and neural architectures of invertebrates, specifically using muscle and neural structures to infer phylogenetic relationships. Here, we provide the data on the development of the muscular and nervous systems during the larval development of stalked barnacle, Octolasmis angulata using the phalloidin F-actin and immunohistochemical labelling (e.g. acetylated α-tubulin and serotonin) and confocal laser scanning microscopy analysis. All naupliar stages shared the same muscle and neural architectures with only the discrepancy in size. The nauplii have a complex muscle arrangement in their feeding apparatus and naupliar appendages. Most naupliar muscles undergo histolyse during the cyprid metamorphosis. The cyprid muscles form beneath the head shield at the end of nauplius VI. The naupliar and cyprid central nervous systems exhibit the typical tripartite brain comprising the protocerebrum, deutocerebrum and tritocerebrum. The serotonin-like immunoreactivity is mainly found in the naupliar brain, mandibular ganglia, cyprid brain and posterior ganglia. Our study revealed that numerous muscle and neural architectures in the naupliar and cyprids have phylogenetic significance, but future studies on the myoanatomy and neuroanatomy of other barnacle species are necessary to determine the homology of these structures. •All naupliar stages of Octolamis angulata have similar myoanatomy and neuroanatomy.•The intrinsic muscles in the naupliar appendages are described for the first time.•The naupliar appendages and feeding apparatus have complex muscle architectures.•Alterations of muscle and neural architectures occurred during cyprid metamorphosis.•Numerous muscle and neural architectures have phylogenetic significance.
ISSN:1467-8039
1873-5495
DOI:10.1016/j.asd.2023.101298